Finite Element Analysis of Beams and Plates using ANSYS Mechanical APDL
Engineering Design & Analysis is a very important subject to every engineering students. Solving those engineering problems theoretically is sometimes difficult for the young engineering students. In these cases by applying the principles of Finite Element Analysis and using ANSYS Mechanical APDL as a tool you can solve any of those types of problems very easily. This is the beauty of this software. ANSYS Mechanical APDL for Finite Element Analysis provides a hands-on introduction to engineering analysis using finite element programs. ANSYS Mechanical APDL is the foundation for all sophisticated features, many of which are not exposed in the ANSYS Workbench user interface. You will find a practical and integrated approach that combines finite element theory with best practices for developing, verifying, validating and interpreting the results of finite element models. Even Analysis with ANSYS Mechanical APDL is much simpler and easier compared to other software, and even it provides a high level of accuracy. With your gained proficiency and conception, you can apply this knowledge to efficiently set up, solve, and post process virtually to any type of analysis.
What you’ll learn
- Be able to generate 2-D and 3-D models for finite element analysis using ANSYS Mechanical APDL.
- Be able to Solve Problems on Beams & Plates using ANSYS Mechanical APDL.
- Understand and conclude from the analysis results. The student will be able to assess any given structural engineering problem.
- Be able to Solve Engineering Mechanics Problems associated with SFD, BMD and complex stresses on various types of Plates.
- Interpret the knowledge, capability of analyzing and solving any concept or problem associated with Engineering Design..
Course Content
- Finite Element Analysis of Beams & Plates using ANSYS Mechanical APDL –> 20 lectures • 4hr 39min.
Requirements
Engineering Design & Analysis is a very important subject to every engineering students. Solving those engineering problems theoretically is sometimes difficult for the young engineering students. In these cases by applying the principles of Finite Element Analysis and using ANSYS Mechanical APDL as a tool you can solve any of those types of problems very easily. This is the beauty of this software. ANSYS Mechanical APDL for Finite Element Analysis provides a hands-on introduction to engineering analysis using finite element programs. ANSYS Mechanical APDL is the foundation for all sophisticated features, many of which are not exposed in the ANSYS Workbench user interface. You will find a practical and integrated approach that combines finite element theory with best practices for developing, verifying, validating and interpreting the results of finite element models. Even Analysis with ANSYS Mechanical APDL is much simpler and easier compared to other software, and even it provides a high level of accuracy. With your gained proficiency and conception, you can apply this knowledge to efficiently set up, solve, and post process virtually to any type of analysis.
This is a professional course made with lucid explanation & utter care, specially keeping in mind of the beginners as well as the intermediate learners. It is assured that the end of this course you will have enough confidence & knowledge of Finite Element Method and its applications. The main aim of this course work is to strengthen your conception and to boost your confidence to solve any real-world Engineering problem with Finite Element Method. We will be using learning by doing approach to teach this course.
This coursework contains 19 videos with a duration of approximately four & a half hours. The videos are represented in a simple manner with simpler examples.
01 A brief introduction to this course work
02 Finite Element Analysis of a Simply Supported Beam under Concentrated Loading
03 Finite Element Analysis of a Simply Supported Beam with Concentrated Point Loading
04 Finite Element Analysis of a Simply Supported Beam under Uniformly Distributed Loading
05 Finite Element Analysis of a Cantilever beam with Concentrated point loading
06 Finite Element Analysis of a Cantilever Beam with Uniformly Distributed Loading
07 Finite Element Analysis of a Cantilever Beam under Uniformly Distributed Loading & Concentrated Point Loading
08 Finite Element Analysis of an overhanging beam with a combination of UDL concentrated point load and moment
09 Finite Element Analysis of an Over Hanging Beam under Uniformly Distributed Loading
10 Finite Element Analysis of an Over hanging beam under Uniformly distribute Loading and concentrated point Loading
11 Finite Element Analysis of an Overhanging Beam under Uniformly Distributed Loading and Concentrated loading
12 Finite Element Analysis of a cantilever beam under Uniformly Distributed loading and Concentrated Loading
13 Finite Element Analysis of a Simply Supported Beam under inclined Loading
14 Finite Element Analysis of a Simply Supported Beam under a combination of Concentrated Loading Uniformly Distributed Loading and Moment
15 Finite Element Analysis of a Beam under a combination of moments
16 Finite Element Analysis of a Plate with a Central Hole and finding its Stress Concentration Factor
17 Finite Element Analysis of a Plate with a Hole & its Convergence Criteria
18 Finite Element Analysis of a Special type of Plate
19 Finite Element Analysis of a Plate with a Pocket
20 Finite Element Analysis of an Axis Symmetric Problem